Analytical attractor and the divergence of the slow-roll expansion in relativistic hydrodynamics

Fluminense U.); Gabriel S. Denicol (Niteroi; Jorge Noronha (Sao Paulo U.)

arxiv: 1711.01657 · v1 · pith:SHVSWPMAnew · submitted 2017-11-05 · ⚛️ nucl-th · hep-ph· hep-th

Analytical attractor and the divergence of the slow-roll expansion in relativistic hydrodynamics

Gabriel S. Denicol (Niteroi , Fluminense U.) , Jorge Noronha (Sao Paulo U.) This is my paper

classification ⚛️ nucl-th hep-phhep-th

keywords attractorexpansionanalyticalfluidhydrodynamicrelativisticslow-rolltime

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We find the general analytical solution of the viscous relativistic hydrodynamic equations (in the absence of bulk viscosity and chemical potential) for a Bjorken expanding fluid with a constant shear viscosity relaxation time. We analytically determine the hydrodynamic attractor of this fluid and discuss its properties. We show for the first time that the slow-roll expansion, a commonly used approach to characterize the attractor, diverges. This is shown to hold also in a conformal plasma. The gradient expansion is found to converge in an example where causality and stability are violated.

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